Search for "anomalies" from neutrino and anti-neutrino oscillations at Deltam2 ~ 1eV2 with muon spectrometers and large LAr-TPC imaging detectors

Abstract

This proposal describes an experimental search for sterile neutrinos beyond the Standard Model with a new CERN-SPS neutrino beam. The experiment is based on two identical LAr-TPC's followed by magnetized spectrometers, observing the electron and muon neutrino events at 1600 and 300 m from the proton target. This project will exploit the ICARUS T600, moved from LNGS to the CERN "Far" position. An additional 1/4 of the T600 detector will be constructed and located in the "Near" position. Two spectrometers will be placed downstream of the two LAr-TPC detectors to greatly complement the physics capabilities. Spectrometers will exploit a classical dipole magnetic field with iron slabs, and a new concept air-magnet, to perform charge identification and muon momentum measurements in a wide energy range over a large transverse area. In the two positions, the radial and energy spectra of the nue beam are practically identical. Comparing the two detectors, in absence of oscillations, all cross sections and experimental biases cancel out, and the two experimentally observed event distributions must be identical. Any difference of the event distributions at the locations of the two detectors might be attributed to the possible existence of -oscillations, presumably due to additional neutrinos with a mixing angle sin2(2thetanew) and a larger mass difference Deltam2new. The superior quality of the LAr imaging TPC, in particular its unique electron-pizero discrimination allows full rejection of backgrounds and offers a lossless nue detection capability. The determination of the muon charge with the spectrometers allows the full separation of numu from anti-numu and therefore controlling systematics from muon mis-identification largely at high momenta.